Experimental Verification of the Work Fluctuation-Dissipation Relation for Information-to-Work Conversion

David Barker; Matteo Scandi; Sebastian Lehmann; Claes Thelander; Kimberly A. Dick; Martí Perarnau-Llobet; Ville F. Maisi

doi:10.1103/PhysRevLett.128.040602

Experimental Verification of the Work Fluctuation-Dissipation Relation for Information-to-Work Conversion

David Barker, Matteo Scandi, Sebastian Lehmann, Claes Thelander, Kimberly A. Dick, Martí Perarnau-Llobet, Ville F. Maisi

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

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We study experimentally work fluctuations in a Szilard engine that extracts work from information encoded as the occupancy of an electron level in a semiconductor quantum dot. We show that as the average work extracted per bit of information increases toward the Landauer limit Formula Presented, the work fluctuations decrease in accordance with the work fluctuation-dissipation relation. We compare the results to a protocol without measurement and feedback and show that when no information is used, the work output and fluctuations vanish simultaneously, contrasting the information-to-energy conversion case where increasing amount of work is produced with decreasing fluctuations. Our study highlights the importance of fluctuations in the design of information-to-work conversion processes.

Originalspråk	engelska
Artikelnummer	040602
Tidskrift	Physical Review Letters
Volym	128
Nummer	4
DOI	https://doi.org/10.1103/PhysRevLett.128.040602
Status	Published - 2022 jan. 28

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10.1103/PhysRevLett.128.040602Licens: CC BY

1 Doktorsavhandling (sammanläggning)

Information Thermodynamics and Fluctuations in Quantum Dots
Barker, D., 2022, Department of Physics, Lund University. 132 s.
Forskningsoutput: Avhandling › Doktorsavhandling (sammanläggning)

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title = "Experimental Verification of the Work Fluctuation-Dissipation Relation for Information-to-Work Conversion",

abstract = "We study experimentally work fluctuations in a Szilard engine that extracts work from information encoded as the occupancy of an electron level in a semiconductor quantum dot. We show that as the average work extracted per bit of information increases toward the Landauer limit Formula Presented, the work fluctuations decrease in accordance with the work fluctuation-dissipation relation. We compare the results to a protocol without measurement and feedback and show that when no information is used, the work output and fluctuations vanish simultaneously, contrasting the information-to-energy conversion case where increasing amount of work is produced with decreasing fluctuations. Our study highlights the importance of fluctuations in the design of information-to-work conversion processes.",

author = "David Barker and Matteo Scandi and Sebastian Lehmann and Claes Thelander and Dick, {Kimberly A.} and Mart{\'i} Perarnau-Llobet and Maisi, {Ville F.}",

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AU - Dick, Kimberly A.

AU - Perarnau-Llobet, Martí

AU - Maisi, Ville F.

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N2 - We study experimentally work fluctuations in a Szilard engine that extracts work from information encoded as the occupancy of an electron level in a semiconductor quantum dot. We show that as the average work extracted per bit of information increases toward the Landauer limit Formula Presented, the work fluctuations decrease in accordance with the work fluctuation-dissipation relation. We compare the results to a protocol without measurement and feedback and show that when no information is used, the work output and fluctuations vanish simultaneously, contrasting the information-to-energy conversion case where increasing amount of work is produced with decreasing fluctuations. Our study highlights the importance of fluctuations in the design of information-to-work conversion processes.

AB - We study experimentally work fluctuations in a Szilard engine that extracts work from information encoded as the occupancy of an electron level in a semiconductor quantum dot. We show that as the average work extracted per bit of information increases toward the Landauer limit Formula Presented, the work fluctuations decrease in accordance with the work fluctuation-dissipation relation. We compare the results to a protocol without measurement and feedback and show that when no information is used, the work output and fluctuations vanish simultaneously, contrasting the information-to-energy conversion case where increasing amount of work is produced with decreasing fluctuations. Our study highlights the importance of fluctuations in the design of information-to-work conversion processes.

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DO - 10.1103/PhysRevLett.128.040602

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Experimental Verification of the Work Fluctuation-Dissipation Relation for Information-to-Work Conversion

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Information Thermodynamics and Fluctuations in Quantum Dots

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